%0 Journal Article %T Dietary intervention of mice using an improved Multiple Artificial-gravity Research System (MARS) under artificial 1£¿g %A Chiaki Mukai %A Chie Matsuda %A Dai Shiba %A Hiroe Kobayashi %A Hiroshi Ohno %A Hiroyasu Mizuno %A Jun Kikuchi %A Masaharu Kagawa %A Masahira Hattori %A Masaki Shirakawa %A Satoshi Furukawa %A Sayo Inoue-Suzuki %A Tamotsu Kato %A Toshiko Ohta %J Archive of "NPJ Microgravity". %D 2019 %R 10.1038/s41526-019-0077-0 %X a Upper: a habitat cage unit (HCU) used in the first (left) and the second (right) JAXA mouse missions. Red arrows indicate the paper sheet covers. Middle: design of the paper sheet covers was modified to protect from tearing by mice. Lower; an improved transportation cage unit (TCU). b¨Ce Environmental data. Temperature b and humidity c in the TCU and the HCU were recorded by data loggers. b Changes in temperature in the TCU and each cage of the HCU during the mission are shown. c changes in humidity in the TCU (orange) and microgravity (MG, in blue) and artificial 1£¿g gravity (AG, in yellow) sections of the HCU during the mission are shown. Gas concentration of carbon dioxide d and ammonia e in the Centrifuge-equipped Biological Experiment Facility (CBEF) were monitored as described previously1 and those in the MG (blue) and the AG (yellow) sections of the CBEF during the mission are show %K Biological sciences %K Health care %U https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6614370/